MCZ33993EWR2 Freescale Semiconductor, MCZ33993EWR2 Datasheet - Page 23
MCZ33993EWR2
Manufacturer Part Number
MCZ33993EWR2
Description
IC MULTIPLE SWITCH DETECT 32SOIC
Manufacturer
Freescale Semiconductor
Datasheet
1.MCZ33993EWR2.pdf
(28 pages)
Specifications of MCZ33993EWR2
Applications
*
Interface
*
Voltage - Supply
*
Package / Case
32-SOIC (7.5mm Width)
Mounting Type
Surface Mount
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
from first device is connected to SI of second device). With
two devices, 48 clock pulses are required to shift data in.
When the WAKE feature is used to enable the power supply,
both WAKE pins should be connected to the enable pin on
the power supply. The INT pins may be connected to one
interrupt pin on the MCU or may have their own dedicated
interrupt to the MCU.
sending the sleep command. With the devices connected in
serial and the sleep command sent, both will enter Sleep
mode on the rising edge of CS. When Sleep mode is entered,
the WAKE pin will be logic [1]. If either device wakes up, the
WAKE pin will transition low, waking the other device.
command (CS logic [0]) and a switch input changes state.
With this event the device that detects this input will not
transition to Sleep mode, while the second device will enter
Sleep mode. In this case two switch status commands must
be sent to receive accurate switch status data. The first
switch status command will wake the device in Sleep mode.
Switch status data may not be valid from the first switch
status command because of the time required for the input
voltage to rise above the 4.0 V input comparator threshold.
This time is dependant on the impedance of SGn or SPn
node. The second switch status command will provide
accurate switch status information. It is recommended that
software wait 10 ms to 20 ms between the two switch status
commands, allowing time for switch input voltages to
stabilize. With all switch states acknowledged by the MCU,
the sleep sequence may be initiated. All parameters for Sleep
mode should be updated prior to sending the sleep
command.
A POR circuit monitors the internal 5.0 V supply. In the event
Analog Integrated Circuit Device Data
Freescale Semiconductor
The transition from Normal to Sleep mode is done by
A condition exists where the MCU is sending the sleep
The 33993 IC has an internal 5.0 V supply from V
PWR
pin.
of transients on the V
Upon reset the 33993 will enter Normal mode with the
internal registers as defined in
it is recommended that the MCU periodically update all
registers internal to the IC.
USING THE
designed to control an enable pin on system power supply.
While in the Normal mode, the WAKE output is low, enabling
the power supply. In the Sleep mode, the WAKE pin is high,
disabling the power supply. The WAKE pin has a passive
pull-up to the internal 5.0 V supply but may be pulled up
through a resistor to V
pulled up to the V
Figure
pin low, causing the 33993 to enter the Normal mode. The
power supply will then be activated, supplying power to the
V
microprocessor can determine the source of the wake-up by
reading the interrupt flag.
COST AND FLEXIBILITY
interfaces have many discrete components. Discrete
components on standard PWB consume board space and
must be checked for solder joint integrity. An integrated
approach reduces solder joints, consumes less board space,
and offers wider operating voltage, analog interface
capability, and greater interfacing flexibility.
DD
The 33993 provides a WAKE output and wake-up input
When the WAKE output is not used the pin should be
During the Sleep mode, a switch closure will set the WAKE
Systems requiring a significant number of switch
pin and the microprocessor and the 33993. The
15, page 24.
WAKE
DD
supply through a resistor as shown in
PWR
FEATURE
PWR
pin, an internal reset may occur.
supply (see
Table
TYPICAL APPLICATIONS
14, page 16. Therefore
Figure
INTRODUCTION
16, page 24)
33993
23
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